FR2577679A1 - DEVICE FOR CONTROLLING THE SEPARATE PERIOD OF PULSES - Google Patents

Abstract

THE INVENTION RELATES TO A DEVICE FOR MONITORING THE PERIOD SEPARATING PULSES. ACCORDING TO THE INVENTION, IT INCLUDES, IN COMBINATION: -AN OSCILLATOR 1 PROVIDING A LOW FREQUENCY SIGNAL H AND A HIGH FREQUENCY SIGNAL H; -A MONOSTABLE ROCKER 2 DELIVERING, FROM THE INPUT PULSES TO BE CONTROLLED, SLOTS OF DETERMINED WIDTH; -A BINARY COUNTER 3 WHOSE RESET TO ZERO IS PROVIDED BY THE DESCENDING FRONT OF THE SLOTS; -A SWITCHING CIRCUIT 5 CONTROLLED BY SLOTS FROM MONOSTABLE CIRCUIT 2, SO THAT BINARY COUNTER 3 IS PILOT BY LOW FREQUENCY SIGNAL H OF OSCILLATOR 1 BETWEEN THE SLOTS AND BY HIGH FREQUENCY SIGNAL H DURING THE DURATION OF THE SAID SLOTS; A COMPARATOR 6 TO COMPARE THE NUMBER DELIVERED BY COUNTER 3 WITH A PREDETERMINED NUMBER PREVIOUSLY REGISTERED IN A MEMORY 7 AND SENSITIVELY CORRESPONDING TO THE PERIOD TO BE CONTROLLED, THIS COMPARATOR GENERATING A PULSE AT ITS OUTPUT WHEN THE TWO NUMBERS COINCIDE; AND -A COINCIDENCE AND CIRCUIT 9 WHOSE TWO INPUTS ARE RESPECTIVELY CONNECTED TO THE OUTPUT OF COMPARATOR 6 AND TO THE OUTPUT OF MONOSTABLE SCALE 2. APPLICATION TO PULSE TRACK CIRCUITS IN THE RAILWAY FIELD.

Description

1 2577679

  DEVICE FOR CONTROLLING THE SEPARATE PERIOD OF PULSES

  The present invention relates to a device for controlling the period separating pulses. Such a device can in particular be used in railway track circuits, in order to control that the signals picked up in these track circuits correspond to the transmitted signals. Indeed, many random spurious pulses are recorded in the rails, in particular because choppers used for the control of traction motors, and some of these parasitic pulses have an amplitude such that the receiving part of the track circuits could confuse them with the own impulses of the transmitting part of the track circuit and, consequently, to indicate the absence of any train on the canton considered, whereas precisely there is

find a train.

  It is then necessary to check whether the impulse entering the circuit is indeed the transmitted pulse. Since the period of these pulses is well defined while that of the spurious pulses is random, this goal is achieved by checking the length of the period between two pulses received successively. In view of the intended application, the control must of course be carried out in

security.

  For this purpose, the device according to the invention is essentially characterized in that it comprises, in combination: an oscillator providing a low frequency signal and a high frequency signal; a monostable basula delivering, from the input pulses to be controlled, slots of a determined width; -2 - a binary counter whose reset is provided by the falling edge of the slots; a switching circuit controlled by the slots from the monostable flip-flop, so that the binary counter is driven by the low frequency signal of the oscillator between the slots and by the high frequency signal during the duration of said slots; a comparator for comparing the number delivered by the counter with a predetermined number previously stored in a memory and substantially corresponding to the period to be monitored, said comparator generating a pulse at its output when the two numbers coincide; and a coincidence AND circuit whose two inputs are respectively connected to the output of the comparator and to the output of the flip-flop

shot.

  With this arrangement, a pulse is obtained at the output of the AND circuit, only if the predetermined number stored in memory is reached by the counter during the accelerated counting phase. The period of the input pulses is thus safely controlled over a fixed range which, for a given slot width, depends essentially on the ratio between the high frequency and the low frequency. The invention will be better understood and other purposes, advantages and features thereof will appear more clearly on reading

  of the following description, given in a non-restrictive manner, and to which

  two drawing plates are attached.

  Figure 1 is a block diagram of a control device according to the invention; and Figures 2A-2F are diagrams illustrating the operation of

these measures.

  The device represented in FIG. 1 firstly comprises an oscillator 1 providing on two outputs a first signal of a low frequency H1 and a second signal of a high frequency H2. These two frequencies are in an important ratio, for example 28 The impulses to be controlled are applied to the input E of the device and

  have the appearance shown in Figure 2A.

  The input E of the device is connected to a monostable flip-flop 2 which, from the input impulses to be controlled, delivers at its output slots of determined width, the speed of which is represented on FIG.

Figure 2B.

  The essential element of the device is constituted by a binary counter 3, driven by the oscillator 1 and which thus delivers at its output, for example on 8 bits, a binary number whose value is a function of the

  number of pulses that are applied to its input.

  The reset of this counter is ensured by the falling edge of the slots from the monostable flip-flop 2, thanks to a circuit 4 delivering pulses whose appearance is represented by the diagram.

FG 2C.

  Between the oscillator 1 and the counter 3 is arranged a switching circuit 5 controlled by these same slots so that the binary counter is thus driven by the low frequency signal H 203 between the slots and the high frequency signal. H2 during the

  duration of said slots, as illustrated by the diagram of Figure 2D.

  A comparator 6, at eight bits, compares at each instant the binary number delivered by the counter 3 has a predetermined number previously recorded in a programmable or wired memory 7, and emits a pulse at its output when the two numbers coincide. This predetermined number corresponds to the period to be controlled by the input pulses and is entered in the memory 7 by means of inputs S. The control device according to the invention is completed by a known type E7 -collection circuit 9. , intrinsically safe, the two 303 entrdas are respectively connected to the output of monostable 2 and the output of comparetbur 6, st whose output is the output S of the 4- We will now describe the operation of this device, with particular reference to Figure 2E, which does not represent a real diagram and is for the sole purpose of illustrating the counting mode

counter 3.

  After resetting, the counter is first driven by the low frequency signal H and thus performs a slow counting shown at 10 in Figure 2E. When the next pulse arrives, the counter is controlled by the high frequency signal H 2, as a result of the actuation of the switching circuit 5, and the count is thus accelerated during the entire duration of the corresponding slot generated by the flip-flop monostable 2, as shown at 11 in Figure 2E. At the end

  of this slot, the counter is reset to zero, as shown in 12.

  If the predetermined number entered in the memory 7 is reached by the counter 3 during the accelerated counting phase 11, the comparator 6 emits a pulse to the coincidence ET-9, as shown at 13 in the diagram of Figure 2F. In addition, since this pulse is emitted during the duration of the corresponding slot applied on the other input of the circuit ET, a pulse is also obtained at the output S. Therefore, it can be seen that with the control device according to FIG. In the invention, a pulse is obtained at the output S only if the predetermined number stored in the memory is reached by the counter during the accelerated counting phase. This makes it possible to safely control the period of the pulses applied to the input E, in a fixed range in absolute value. Of course, the number stored in memory will have to

  match the longest period to control.

  For example, if the period to be controlled is about 300ms, we can take a frequency H1 corresponding to a period of 833 us, giving for H2 a period of 3.25 us with a ratio of 28.Si it is now assumed that the slots delivered by the monostable flip-flop 2 have a duration of 13 us, there will be four pulses H2 during the accelerated counting phase (4 x 3.25 us = 13 us).

  Controlled is then 4 x 833 us, or about 3.33 ms.

  Under these conditions, if N is the predetermined number stored in memory and expressed in decimal, the longest period checked will be equal to N × 833 μs, while the shortest period checked will be equal to

(N - 4) x 833 us.

  Although only one embodiment has been described, it is obvious that any modification made by those skilled in the art in the same spirit would not be outside the scope of the present invention. For example, a very high frequency oscillator with one or two fast counter dividers delivering the

  low frequency pulses and those of high frequency.

  Obviously, it is useful to regularly reset these pulses and one can usefully use the pulse received at the input of the device to reset the fast counter or counters to zero, the registration is therefore performed automatically during the processing of any

new pulse received.

Claims (2)

  1 - Device for controlling the period separating pulses, characterized in that it comprises, in combination: - an oscillator (1) providing a low frequency signal (H1) and a so-called high frequency signal (H2); a monostable flip-flop (2) delivering, from the input impulses to be controlled, slots of a determined width; - A binary counter (3) whose reset is provided by the falling edge of the slots; - a switching circuit (5) controlled by the slots from the monostable circuit (2), so that the binary counter (3) is driven by the low frequency signal (H1) of the oscillator (1) between the - slots and by the signal of high frequency (H2) during the duration of said slots; a comparator (6) for comparing the number delivered by the counter (3) with a predetermined number previously stored in a memory (7) and corresponding substantially to the period to be monitored, said comparator generating a pulse at its output when the two numbers coincide; and an AND coincidence circuit (9) whose two inputs are respectively connected to the output of the comparator (6) and to the output the monostable rocker (2).   2 - Device for controlling the period separating pulses characterized in that an oscillator (1) delivers respectively on each of its two outputs a low frequency signal (H1) and a high frequency signal (H2) which are applied to both inputs of a switching circuit (4) whose control input is connected to the output of a monostable flip-flop (2) at the input of which the impulses to be controlled are applied, and whose output is connected to a binary counter (3) whose reset terminal is connected to the output of a circuit (4) delivering a pulse in response to the return to the stable state of said monostable flip-flop (2), the output signals of said binary counter (3) being applied to a comparator (6) outputting an output signal when the representative binary number of the output signals of said binary counter (6) coincides with a predetermined binary number, the output signal of said comparator (6) t applied! h one of the inputs of a coincidence circuit AND (9) to the other input of which is applied the output signal of said flip-flop monostable (2).